초록 ▼

A converter for producing useable energy from fluid motion of a fluid medium. The converter includes a support structure, at least one movable element immersed in the fluid medium and supported externally on the support structure such that the movable element can move relatively to the structure in

A converter for producing useable energy from fluid motion of a fluid medium. The converter includes a support structure, at least one movable element immersed in the fluid medium and supported externally on the support structure such that the movable element can move relatively to the structure in response to the fluid motion by vortex induced motion, galloping or combination thereof, and at least one power device supported on the support structure and coupled to the movable element. The power device converts motion of the movable element to useable energy.

대표청구항 ▼

What is claimed is: 1. A converter for producing useable energy from fluid motion of a fluid medium, the converter comprising: a foundation submerged in the fluid medium; a support structure including first and second support piles directly affixed on the foundation substantially perpendicularly to

What is claimed is: 1. A converter for producing useable energy from fluid motion of a fluid medium, the converter comprising: a foundation submerged in the fluid medium; a support structure including first and second support piles directly affixed on the foundation substantially perpendicularly to the foundation and perpendicular to a velocity direction of the fluid motion; at least one movable element submerged in the fluid medium, the movable element having first and second ends along a longitudinal axis, the first and second ends movably coupled to the first and second piles with first and second mechanisms respectively, such that the movable element can move relatively to the first and second piles along first and second axes substantially perpendicular to the longitudinal axis of the movable element, the first axis substantially parallel to the velocity direction and the second axis substantially perpendicular to the velocity direction, in response to each of vortex induced fluid motion, or galloping fluid motion or combination thereof; and at least one power device supported on the support structure and coupled to the movable element, the power device converting motion of the movable element to useable energy. 2. The converter of claim 1, wherein the movable element is elongated and has a polygonal, circular, elliptical or curvilinear cross-section. 3. The converter of claim 1, wherein the movable element is cylindrical or spherical or ellipsoidal. 4. The converter of claim 1, wherein the movable element is solid or hollow with or without a core. 5. The converter of claim 1, wherein the movable element can oscillate relatively to the support structure in two non-parallel planes. 6. The converter of claim 1, wherein the power device is a linear power device or a rotary power device or a hydraulic power device, or a combination thereof, or a planar power device. 7. The converter of claim 1, wherein the support structure includes a plurality of piles and wherein the converter further comprises a plurality of movable elements, each movable element movably mounted between two piles from the plurality of piles with a biasing mechanisms, each biasing mechanism including a plurality of springs arranged on a plane perpendicular to the longitudinal axis, the plurality of movable elements defining a three-dimensional array. 8. The converter of claim 7, wherein each movable element has a longitudinal axis, and wherein the longitudinal axes are parallel. 9. The converter of claim 8, wherein the longitudinal axes are staggered relatively to the velocity direction of fluid motion. 10. The converter of claim 8, wherein the longitudinal axes are staggered in two directions substantially perpendicular to the longitudinal axes. 11. The converter of claim 1, further comprising a plurality of movable elements defining a two-dimensional array. 12. The converter of claim 1, wherein the foundation comprises a fixed platform, or a floating moored platform, or a dynamically floated platform. 13. The converter of claim 1, wherein the each biasing mechanism includes a plurality of springs arranged on a plane substantially perpendicular to the longitudinal axis, each biasing mechanism coupled to the movable element for allowing motion of the movable element orthogonally to the longitudinal axis of the movable element. 14. A converter for producing useable energy from fluid motion of a fluid medium, the converter comprising: a support structure including a platform submerged in the fluid medium and a plurality of piles directly affixed on the platform, each pile substantially perpendicular to the platform and to a velocity direction of the fluid motion; a plurality of movable elements, each movable element having a longitudinal axis, the movable elements submerged in the fluid medium and movably supported between the piles with biasing mechanisms along first and second axes perpendicular to the longitudinal axis such that each movable element can move relatively to the piles in response to vortex induced fluid motion, or galloping fluid motion or combination thereof; and at least one power device supported on the support structure and coupled to at least one movable element, the power device converting motion of the movable elements relatively to the structure to useable energy. 15. The converter of claim 14, wherein each movable element can oscillate relatively to the support structure in two non-parallel planes. 16. The converter of claim 14, wherein each biasing mechanism includes a plurality of springs arranged on a plane substantially perpendicular to the longitudinal axis, the biasing mechanism coupled to each movable element for allowing motion of each movable element orthogonally to the longitudinal axis of the movable element. 17. A method for converting fluid motion of a fluid medium to useable energy, the method comprising: positioning a structure having a platform and a plurality of parallel piles directly affixed on the platform in the fluid medium, the piles perpendicular to a velocity direction of the fluid motion; submerging at least one movable element in the fluid medium, the movable element defining a longitudinal axis; movably supporting the movable element between two piles with a biasing mechanism for motion along first and second axes perpendicular to the longitudinal axis; allowing each of vortex induced fluid motion, or galloping fluid motion or combination thereof to move the movable element relatively to the piles; and converting the motion of the movable element relatively to the structure into useable energy. 18. The method of claim 17, wherein the biasing mechanism includes a plurality of springs arranged on a plane substantially perpendicular to the longitudinal axis, the method further comprising biasing the movable element for motion orthogonally to the longitudinal of the movable element. 19. The method of claim 17, further comprising biasing the movable element for motion in two non-parallel planes.